gecko/xpcom/string/nsTSubstring.cpp
Birunthan Mohanathas 70a3dc98a3 Bug 1028559 - Flatten xpcom/string/{public,src}/ directories. r=dbaron
--HG--
rename : xpcom/string/public/nsAString.h => xpcom/string/nsAString.h
rename : xpcom/string/public/nsAlgorithm.h => xpcom/string/nsAlgorithm.h
rename : xpcom/string/public/nsCharTraits.h => xpcom/string/nsCharTraits.h
rename : xpcom/string/src/nsDependentString.cpp => xpcom/string/nsDependentString.cpp
rename : xpcom/string/public/nsDependentString.h => xpcom/string/nsDependentString.h
rename : xpcom/string/src/nsDependentSubstring.cpp => xpcom/string/nsDependentSubstring.cpp
rename : xpcom/string/public/nsDependentSubstring.h => xpcom/string/nsDependentSubstring.h
rename : xpcom/string/public/nsEmbedString.h => xpcom/string/nsEmbedString.h
rename : xpcom/string/public/nsLiteralString.h => xpcom/string/nsLiteralString.h
rename : xpcom/string/public/nsPrintfCString.h => xpcom/string/nsPrintfCString.h
rename : xpcom/string/src/nsPromiseFlatString.cpp => xpcom/string/nsPromiseFlatString.cpp
rename : xpcom/string/public/nsPromiseFlatString.h => xpcom/string/nsPromiseFlatString.h
rename : xpcom/string/src/nsReadableUtils.cpp => xpcom/string/nsReadableUtils.cpp
rename : xpcom/string/public/nsReadableUtils.h => xpcom/string/nsReadableUtils.h
rename : xpcom/string/src/nsString.cpp => xpcom/string/nsString.cpp
rename : xpcom/string/public/nsString.h => xpcom/string/nsString.h
rename : xpcom/string/public/nsStringBuffer.h => xpcom/string/nsStringBuffer.h
rename : xpcom/string/src/nsStringComparator.cpp => xpcom/string/nsStringComparator.cpp
rename : xpcom/string/public/nsStringFwd.h => xpcom/string/nsStringFwd.h
rename : xpcom/string/public/nsStringIterator.h => xpcom/string/nsStringIterator.h
rename : xpcom/string/src/nsStringObsolete.cpp => xpcom/string/nsStringObsolete.cpp
rename : xpcom/string/src/nsSubstring.cpp => xpcom/string/nsSubstring.cpp
rename : xpcom/string/public/nsSubstring.h => xpcom/string/nsSubstring.h
rename : xpcom/string/src/nsSubstringTuple.cpp => xpcom/string/nsSubstringTuple.cpp
rename : xpcom/string/public/nsSubstringTuple.h => xpcom/string/nsSubstringTuple.h
rename : xpcom/string/src/nsTDependentString.cpp => xpcom/string/nsTDependentString.cpp
rename : xpcom/string/public/nsTDependentString.h => xpcom/string/nsTDependentString.h
rename : xpcom/string/src/nsTDependentSubstring.cpp => xpcom/string/nsTDependentSubstring.cpp
rename : xpcom/string/public/nsTDependentSubstring.h => xpcom/string/nsTDependentSubstring.h
rename : xpcom/string/public/nsTLiteralString.h => xpcom/string/nsTLiteralString.h
rename : xpcom/string/src/nsTPromiseFlatString.cpp => xpcom/string/nsTPromiseFlatString.cpp
rename : xpcom/string/public/nsTPromiseFlatString.h => xpcom/string/nsTPromiseFlatString.h
rename : xpcom/string/src/nsTString.cpp => xpcom/string/nsTString.cpp
rename : xpcom/string/public/nsTString.h => xpcom/string/nsTString.h
rename : xpcom/string/src/nsTStringComparator.cpp => xpcom/string/nsTStringComparator.cpp
rename : xpcom/string/src/nsTStringObsolete.cpp => xpcom/string/nsTStringObsolete.cpp
rename : xpcom/string/src/nsTSubstring.cpp => xpcom/string/nsTSubstring.cpp
rename : xpcom/string/public/nsTSubstring.h => xpcom/string/nsTSubstring.h
rename : xpcom/string/src/nsTSubstringTuple.cpp => xpcom/string/nsTSubstringTuple.cpp
rename : xpcom/string/public/nsTSubstringTuple.h => xpcom/string/nsTSubstringTuple.h
rename : xpcom/string/public/nsUTF8Utils.h => xpcom/string/nsUTF8Utils.h
rename : xpcom/string/src/nsUTF8UtilsSSE2.cpp => xpcom/string/nsUTF8UtilsSSE2.cpp
rename : xpcom/string/public/nsXPCOMStrings.h => xpcom/string/nsXPCOMStrings.h
rename : xpcom/string/public/nsXPIDLString.h => xpcom/string/nsXPIDLString.h
rename : xpcom/string/public/string-template-def-char.h => xpcom/string/string-template-def-char.h
rename : xpcom/string/public/string-template-def-unichar.h => xpcom/string/string-template-def-unichar.h
rename : xpcom/string/public/string-template-undef.h => xpcom/string/string-template-undef.h
2014-06-25 15:08:54 -07:00

1039 lines
26 KiB
C++

/* -*- Mode: C++; tab-width: 8; indent-tabs-mode: nil; c-basic-offset: 2 -*- */
/* vim: set ts=8 sts=2 et sw=2 tw=80: */
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
#include "mozilla/MemoryReporting.h"
#include "double-conversion.h"
using double_conversion::DoubleToStringConverter;
#ifdef XPCOM_STRING_CONSTRUCTOR_OUT_OF_LINE
nsTSubstring_CharT::nsTSubstring_CharT(char_type* aData, size_type aLength,
uint32_t aFlags)
: mData(aData),
mLength(aLength),
mFlags(aFlags)
{
if (aFlags & F_OWNED) {
STRING_STAT_INCREMENT(Adopt);
#ifdef NS_BUILD_REFCNT_LOGGING
NS_LogCtor(mData, "StringAdopt", 1);
#endif
}
}
#endif /* XPCOM_STRING_CONSTRUCTOR_OUT_OF_LINE */
/**
* helper function for down-casting a nsTSubstring to a nsTFixedString.
*/
inline const nsTFixedString_CharT*
AsFixedString(const nsTSubstring_CharT* aStr)
{
return static_cast<const nsTFixedString_CharT*>(aStr);
}
/**
* this function is called to prepare mData for writing. the given capacity
* indicates the required minimum storage size for mData, in sizeof(char_type)
* increments. this function returns true if the operation succeeds. it also
* returns the old data and old flags members if mData is newly allocated.
* the old data must be released by the caller.
*/
bool
nsTSubstring_CharT::MutatePrep(size_type aCapacity, char_type** aOldData,
uint32_t* aOldFlags)
{
// initialize to no old data
*aOldData = nullptr;
*aOldFlags = 0;
size_type curCapacity = Capacity();
// If |aCapacity > kMaxCapacity|, then our doubling algorithm may not be
// able to allocate it. Just bail out in cases like that. We don't want
// to be allocating 2GB+ strings anyway.
PR_STATIC_ASSERT((sizeof(nsStringBuffer) & 0x1) == 0);
const size_type kMaxCapacity =
(size_type(-1) / 2 - sizeof(nsStringBuffer)) / sizeof(char_type) - 2;
if (aCapacity > kMaxCapacity) {
// Also assert for |aCapacity| equal to |size_type(-1)|, since we used to
// use that value to flag immutability.
NS_ASSERTION(aCapacity != size_type(-1), "Bogus capacity");
return false;
}
// |curCapacity == 0| means that the buffer is immutable or 0-sized, so we
// need to allocate a new buffer. We cannot use the existing buffer even
// though it might be large enough.
if (curCapacity != 0) {
if (aCapacity <= curCapacity) {
mFlags &= ~F_VOIDED; // mutation clears voided flag
return true;
}
// Use doubling algorithm when forced to increase available capacity.
size_type temp = curCapacity;
while (temp < aCapacity) {
temp <<= 1;
}
NS_ASSERTION(XPCOM_MIN(temp, kMaxCapacity) >= aCapacity,
"should have hit the early return at the top");
aCapacity = XPCOM_MIN(temp, kMaxCapacity);
}
//
// several cases:
//
// (1) we have a shared buffer (mFlags & F_SHARED)
// (2) we have an owned buffer (mFlags & F_OWNED)
// (3) we have a fixed buffer (mFlags & F_FIXED)
// (4) we have a readonly buffer
//
// requiring that we in some cases preserve the data before creating
// a new buffer complicates things just a bit ;-)
//
size_type storageSize = (aCapacity + 1) * sizeof(char_type);
// case #1
if (mFlags & F_SHARED) {
nsStringBuffer* hdr = nsStringBuffer::FromData(mData);
if (!hdr->IsReadonly()) {
nsStringBuffer* newHdr = nsStringBuffer::Realloc(hdr, storageSize);
if (!newHdr) {
return false; // out-of-memory (original header left intact)
}
hdr = newHdr;
mData = (char_type*)hdr->Data();
mFlags &= ~F_VOIDED; // mutation clears voided flag
return true;
}
}
char_type* newData;
uint32_t newDataFlags;
// if we have a fixed buffer of sufficient size, then use it. this helps
// avoid heap allocations.
if ((mFlags & F_CLASS_FIXED) &&
(aCapacity < AsFixedString(this)->mFixedCapacity)) {
newData = AsFixedString(this)->mFixedBuf;
newDataFlags = F_TERMINATED | F_FIXED;
} else {
// if we reach here then, we must allocate a new buffer. we cannot
// make use of our F_OWNED or F_FIXED buffers because they are not
// large enough.
nsStringBuffer* newHdr =
nsStringBuffer::Alloc(storageSize).take();
if (!newHdr) {
return false; // we are still in a consistent state
}
newData = (char_type*)newHdr->Data();
newDataFlags = F_TERMINATED | F_SHARED;
}
// save old data and flags
*aOldData = mData;
*aOldFlags = mFlags;
mData = newData;
SetDataFlags(newDataFlags);
// mLength does not change
// though we are not necessarily terminated at the moment, now is probably
// still the best time to set F_TERMINATED.
return true;
}
void
nsTSubstring_CharT::Finalize()
{
::ReleaseData(mData, mFlags);
// mData, mLength, and mFlags are purposefully left dangling
}
bool
nsTSubstring_CharT::ReplacePrepInternal(index_type aCutStart, size_type aCutLen,
size_type aFragLen, size_type aNewLen)
{
char_type* oldData;
uint32_t oldFlags;
if (!MutatePrep(aNewLen, &oldData, &oldFlags)) {
return false; // out-of-memory
}
if (oldData) {
// determine whether or not we need to copy part of the old string
// over to the new string.
if (aCutStart > 0) {
// copy prefix from old string
char_traits::copy(mData, oldData, aCutStart);
}
if (aCutStart + aCutLen < mLength) {
// copy suffix from old string to new offset
size_type from = aCutStart + aCutLen;
size_type fromLen = mLength - from;
uint32_t to = aCutStart + aFragLen;
char_traits::copy(mData + to, oldData + from, fromLen);
}
::ReleaseData(oldData, oldFlags);
} else {
// original data remains intact
// determine whether or not we need to move part of the existing string
// to make room for the requested hole.
if (aFragLen != aCutLen && aCutStart + aCutLen < mLength) {
uint32_t from = aCutStart + aCutLen;
uint32_t fromLen = mLength - from;
uint32_t to = aCutStart + aFragLen;
char_traits::move(mData + to, mData + from, fromLen);
}
}
// add null terminator (mutable mData always has room for the null-
// terminator).
mData[aNewLen] = char_type(0);
mLength = aNewLen;
return true;
}
nsTSubstring_CharT::size_type
nsTSubstring_CharT::Capacity() const
{
// return 0 to indicate an immutable or 0-sized buffer
size_type capacity;
if (mFlags & F_SHARED) {
// if the string is readonly, then we pretend that it has no capacity.
nsStringBuffer* hdr = nsStringBuffer::FromData(mData);
if (hdr->IsReadonly()) {
capacity = 0;
} else {
capacity = (hdr->StorageSize() / sizeof(char_type)) - 1;
}
} else if (mFlags & F_FIXED) {
capacity = AsFixedString(this)->mFixedCapacity;
} else if (mFlags & F_OWNED) {
// we don't store the capacity of an adopted buffer because that would
// require an additional member field. the best we can do is base the
// capacity on our length. remains to be seen if this is the right
// trade-off.
capacity = mLength;
} else {
capacity = 0;
}
return capacity;
}
bool
nsTSubstring_CharT::EnsureMutable(size_type aNewLen)
{
if (aNewLen == size_type(-1) || aNewLen == mLength) {
if (mFlags & (F_FIXED | F_OWNED)) {
return true;
}
if ((mFlags & F_SHARED) &&
!nsStringBuffer::FromData(mData)->IsReadonly()) {
return true;
}
aNewLen = mLength;
}
return SetLength(aNewLen, fallible_t());
}
// ---------------------------------------------------------------------------
// This version of Assign is optimized for single-character assignment.
void
nsTSubstring_CharT::Assign(char_type aChar)
{
if (!ReplacePrep(0, mLength, 1)) {
NS_ABORT_OOM(mLength);
}
*mData = aChar;
}
bool
nsTSubstring_CharT::Assign(char_type aChar, const fallible_t&)
{
if (!ReplacePrep(0, mLength, 1)) {
return false;
}
*mData = aChar;
return true;
}
void
nsTSubstring_CharT::Assign(const char_type* aData)
{
if (!Assign(aData, size_type(-1), fallible_t())) {
NS_ABORT_OOM(char_traits::length(aData));
}
}
void
nsTSubstring_CharT::Assign(const char_type* aData, size_type aLength)
{
if (!Assign(aData, aLength, fallible_t())) {
NS_ABORT_OOM(aLength);
}
}
bool
nsTSubstring_CharT::Assign(const char_type* aData, size_type aLength,
const fallible_t&)
{
if (!aData || aLength == 0) {
Truncate();
return true;
}
if (aLength == size_type(-1)) {
aLength = char_traits::length(aData);
}
if (IsDependentOn(aData, aData + aLength)) {
return Assign(string_type(aData, aLength), fallible_t());
}
if (!ReplacePrep(0, mLength, aLength)) {
return false;
}
char_traits::copy(mData, aData, aLength);
return true;
}
void
nsTSubstring_CharT::AssignASCII(const char* aData, size_type aLength)
{
if (!AssignASCII(aData, aLength, fallible_t())) {
NS_ABORT_OOM(aLength);
}
}
bool
nsTSubstring_CharT::AssignASCII(const char* aData, size_type aLength,
const fallible_t&)
{
// A Unicode string can't depend on an ASCII string buffer,
// so this dependence check only applies to CStrings.
#ifdef CharT_is_char
if (IsDependentOn(aData, aData + aLength)) {
return Assign(string_type(aData, aLength), fallible_t());
}
#endif
if (!ReplacePrep(0, mLength, aLength)) {
return false;
}
char_traits::copyASCII(mData, aData, aLength);
return true;
}
void
nsTSubstring_CharT::AssignLiteral(const char_type* aData, size_type aLength)
{
::ReleaseData(mData, mFlags);
mData = const_cast<char_type*>(aData);
mLength = aLength;
SetDataFlags(F_TERMINATED | F_LITERAL);
}
void
nsTSubstring_CharT::Assign(const self_type& aStr)
{
if (!Assign(aStr, fallible_t())) {
NS_ABORT_OOM(aStr.Length());
}
}
bool
nsTSubstring_CharT::Assign(const self_type& aStr, const fallible_t&)
{
// |aStr| could be sharable. We need to check its flags to know how to
// deal with it.
if (&aStr == this) {
return true;
}
if (!aStr.mLength) {
Truncate();
mFlags |= aStr.mFlags & F_VOIDED;
return true;
}
if (aStr.mFlags & F_SHARED) {
// nice! we can avoid a string copy :-)
// |aStr| should be null-terminated
NS_ASSERTION(aStr.mFlags & F_TERMINATED, "shared, but not terminated");
::ReleaseData(mData, mFlags);
mData = aStr.mData;
mLength = aStr.mLength;
SetDataFlags(F_TERMINATED | F_SHARED);
// get an owning reference to the mData
nsStringBuffer::FromData(mData)->AddRef();
return true;
} else if (aStr.mFlags & F_LITERAL) {
NS_ABORT_IF_FALSE(aStr.mFlags & F_TERMINATED, "Unterminated literal");
AssignLiteral(aStr.mData, aStr.mLength);
return true;
}
// else, treat this like an ordinary assignment.
return Assign(aStr.Data(), aStr.Length(), fallible_t());
}
void
nsTSubstring_CharT::Assign(const substring_tuple_type& aTuple)
{
if (!Assign(aTuple, fallible_t())) {
NS_ABORT_OOM(aTuple.Length());
}
}
bool
nsTSubstring_CharT::Assign(const substring_tuple_type& aTuple,
const fallible_t&)
{
if (aTuple.IsDependentOn(mData, mData + mLength)) {
// take advantage of sharing here...
return Assign(string_type(aTuple), fallible_t());
}
size_type length = aTuple.Length();
// don't use ReplacePrep here because it changes the length
char_type* oldData;
uint32_t oldFlags;
if (!MutatePrep(length, &oldData, &oldFlags)) {
return false;
}
if (oldData) {
::ReleaseData(oldData, oldFlags);
}
aTuple.WriteTo(mData, length);
mData[length] = 0;
mLength = length;
return true;
}
void
nsTSubstring_CharT::Adopt(char_type* aData, size_type aLength)
{
if (aData) {
::ReleaseData(mData, mFlags);
if (aLength == size_type(-1)) {
aLength = char_traits::length(aData);
}
mData = aData;
mLength = aLength;
SetDataFlags(F_TERMINATED | F_OWNED);
STRING_STAT_INCREMENT(Adopt);
#ifdef NS_BUILD_REFCNT_LOGGING
// Treat this as construction of a "StringAdopt" object for leak
// tracking purposes.
NS_LogCtor(mData, "StringAdopt", 1);
#endif // NS_BUILD_REFCNT_LOGGING
} else {
SetIsVoid(true);
}
}
// This version of Replace is optimized for single-character replacement.
void
nsTSubstring_CharT::Replace(index_type aCutStart, size_type aCutLength,
char_type aChar)
{
aCutStart = XPCOM_MIN(aCutStart, Length());
if (ReplacePrep(aCutStart, aCutLength, 1)) {
mData[aCutStart] = aChar;
}
}
bool
nsTSubstring_CharT::Replace(index_type aCutStart, size_type aCutLength,
char_type aChar,
const mozilla::fallible_t&)
{
aCutStart = XPCOM_MIN(aCutStart, Length());
if (!ReplacePrep(aCutStart, aCutLength, 1)) {
return false;
}
mData[aCutStart] = aChar;
return true;
}
void
nsTSubstring_CharT::Replace(index_type aCutStart, size_type aCutLength,
const char_type* aData, size_type aLength)
{
if (!Replace(aCutStart, aCutLength, aData, aLength,
mozilla::fallible_t())) {
NS_ABORT_OOM(Length() - aCutLength + 1);
}
}
bool
nsTSubstring_CharT::Replace(index_type aCutStart, size_type aCutLength,
const char_type* aData, size_type aLength,
const mozilla::fallible_t&)
{
// unfortunately, some callers pass null :-(
if (!aData) {
aLength = 0;
} else {
if (aLength == size_type(-1)) {
aLength = char_traits::length(aData);
}
if (IsDependentOn(aData, aData + aLength)) {
nsTAutoString_CharT temp(aData, aLength);
return Replace(aCutStart, aCutLength, temp, mozilla::fallible_t());
}
}
aCutStart = XPCOM_MIN(aCutStart, Length());
bool ok = ReplacePrep(aCutStart, aCutLength, aLength);
if (!ok) {
return false;
}
if (aLength > 0) {
char_traits::copy(mData + aCutStart, aData, aLength);
}
return true;
}
void
nsTSubstring_CharT::ReplaceASCII(index_type aCutStart, size_type aCutLength,
const char* aData, size_type aLength)
{
if (aLength == size_type(-1)) {
aLength = strlen(aData);
}
// A Unicode string can't depend on an ASCII string buffer,
// so this dependence check only applies to CStrings.
#ifdef CharT_is_char
if (IsDependentOn(aData, aData + aLength)) {
nsTAutoString_CharT temp(aData, aLength);
Replace(aCutStart, aCutLength, temp);
return;
}
#endif
aCutStart = XPCOM_MIN(aCutStart, Length());
if (ReplacePrep(aCutStart, aCutLength, aLength) && aLength > 0) {
char_traits::copyASCII(mData + aCutStart, aData, aLength);
}
}
void
nsTSubstring_CharT::Replace(index_type aCutStart, size_type aCutLength,
const substring_tuple_type& aTuple)
{
if (aTuple.IsDependentOn(mData, mData + mLength)) {
nsTAutoString_CharT temp(aTuple);
Replace(aCutStart, aCutLength, temp);
return;
}
size_type length = aTuple.Length();
aCutStart = XPCOM_MIN(aCutStart, Length());
if (ReplacePrep(aCutStart, aCutLength, length) && length > 0) {
aTuple.WriteTo(mData + aCutStart, length);
}
}
void
nsTSubstring_CharT::ReplaceLiteral(index_type aCutStart, size_type aCutLength,
const char_type* aData, size_type aLength)
{
aCutStart = XPCOM_MIN(aCutStart, Length());
if (!aCutStart && aCutLength == Length()) {
AssignLiteral(aData, aLength);
} else if (ReplacePrep(aCutStart, aCutLength, aLength) && aLength > 0) {
char_traits::copy(mData + aCutStart, aData, aLength);
}
}
void
nsTSubstring_CharT::SetCapacity(size_type aCapacity)
{
if (!SetCapacity(aCapacity, fallible_t())) {
NS_ABORT_OOM(aCapacity);
}
}
bool
nsTSubstring_CharT::SetCapacity(size_type aCapacity, const fallible_t&)
{
// capacity does not include room for the terminating null char
// if our capacity is reduced to zero, then free our buffer.
if (aCapacity == 0) {
::ReleaseData(mData, mFlags);
mData = char_traits::sEmptyBuffer;
mLength = 0;
SetDataFlags(F_TERMINATED);
return true;
}
char_type* oldData;
uint32_t oldFlags;
if (!MutatePrep(aCapacity, &oldData, &oldFlags)) {
return false; // out-of-memory
}
// compute new string length
size_type newLen = XPCOM_MIN(mLength, aCapacity);
if (oldData) {
// preserve old data
if (mLength > 0) {
char_traits::copy(mData, oldData, newLen);
}
::ReleaseData(oldData, oldFlags);
}
// adjust mLength if our buffer shrunk down in size
if (newLen < mLength) {
mLength = newLen;
}
// always null-terminate here, even if the buffer got longer. this is
// for backwards compat with the old string implementation.
mData[aCapacity] = char_type(0);
return true;
}
void
nsTSubstring_CharT::SetLength(size_type aLength)
{
SetCapacity(aLength);
mLength = aLength;
}
bool
nsTSubstring_CharT::SetLength(size_type aLength, const fallible_t&)
{
if (!SetCapacity(aLength, fallible_t())) {
return false;
}
mLength = aLength;
return true;
}
void
nsTSubstring_CharT::SetIsVoid(bool aVal)
{
if (aVal) {
Truncate();
mFlags |= F_VOIDED;
} else {
mFlags &= ~F_VOIDED;
}
}
bool
nsTSubstring_CharT::Equals(const self_type& aStr) const
{
return mLength == aStr.mLength &&
char_traits::compare(mData, aStr.mData, mLength) == 0;
}
bool
nsTSubstring_CharT::Equals(const self_type& aStr,
const comparator_type& aComp) const
{
return mLength == aStr.mLength &&
aComp(mData, aStr.mData, mLength, aStr.mLength) == 0;
}
bool
nsTSubstring_CharT::Equals(const char_type* aData) const
{
// unfortunately, some callers pass null :-(
if (!aData) {
NS_NOTREACHED("null data pointer");
return mLength == 0;
}
// XXX avoid length calculation?
size_type length = char_traits::length(aData);
return mLength == length &&
char_traits::compare(mData, aData, mLength) == 0;
}
bool
nsTSubstring_CharT::Equals(const char_type* aData,
const comparator_type& aComp) const
{
// unfortunately, some callers pass null :-(
if (!aData) {
NS_NOTREACHED("null data pointer");
return mLength == 0;
}
// XXX avoid length calculation?
size_type length = char_traits::length(aData);
return mLength == length && aComp(mData, aData, mLength, length) == 0;
}
bool
nsTSubstring_CharT::EqualsASCII(const char* aData, size_type aLen) const
{
return mLength == aLen &&
char_traits::compareASCII(mData, aData, aLen) == 0;
}
bool
nsTSubstring_CharT::EqualsASCII(const char* aData) const
{
return char_traits::compareASCIINullTerminated(mData, mLength, aData) == 0;
}
bool
nsTSubstring_CharT::LowerCaseEqualsASCII(const char* aData,
size_type aLen) const
{
return mLength == aLen &&
char_traits::compareLowerCaseToASCII(mData, aData, aLen) == 0;
}
bool
nsTSubstring_CharT::LowerCaseEqualsASCII(const char* aData) const
{
return char_traits::compareLowerCaseToASCIINullTerminated(mData,
mLength,
aData) == 0;
}
nsTSubstring_CharT::size_type
nsTSubstring_CharT::CountChar(char_type aChar) const
{
const char_type* start = mData;
const char_type* end = mData + mLength;
return NS_COUNT(start, end, aChar);
}
int32_t
nsTSubstring_CharT::FindChar(char_type aChar, index_type aOffset) const
{
if (aOffset < mLength) {
const char_type* result = char_traits::find(mData + aOffset,
mLength - aOffset, aChar);
if (result) {
return result - mData;
}
}
return -1;
}
void
nsTSubstring_CharT::StripChar(char_type aChar, int32_t aOffset)
{
if (mLength == 0 || aOffset >= int32_t(mLength)) {
return;
}
if (!EnsureMutable()) { // XXX do this lazily?
NS_ABORT_OOM(mLength);
}
// XXX(darin): this code should defer writing until necessary.
char_type* to = mData + aOffset;
char_type* from = mData + aOffset;
char_type* end = mData + mLength;
while (from < end) {
char_type theChar = *from++;
if (aChar != theChar) {
*to++ = theChar;
}
}
*to = char_type(0); // add the null
mLength = to - mData;
}
void
nsTSubstring_CharT::StripChars(const char_type* aChars, uint32_t aOffset)
{
if (aOffset >= uint32_t(mLength)) {
return;
}
if (!EnsureMutable()) { // XXX do this lazily?
NS_ABORT_OOM(mLength);
}
// XXX(darin): this code should defer writing until necessary.
char_type* to = mData + aOffset;
char_type* from = mData + aOffset;
char_type* end = mData + mLength;
while (from < end) {
char_type theChar = *from++;
const char_type* test = aChars;
for (; *test && *test != theChar; ++test);
if (!*test) {
// Not stripped, copy this char.
*to++ = theChar;
}
}
*to = char_type(0); // add the null
mLength = to - mData;
}
int
nsTSubstring_CharT::AppendFunc(void* aArg, const char* aStr, uint32_t aLen)
{
self_type* self = static_cast<self_type*>(aArg);
// NSPR sends us the final null terminator even though we don't want it
if (aLen && aStr[aLen - 1] == '\0') {
--aLen;
}
self->AppendASCII(aStr, aLen);
return aLen;
}
void
nsTSubstring_CharT::AppendPrintf(const char* aFormat, ...)
{
va_list ap;
va_start(ap, aFormat);
uint32_t r = PR_vsxprintf(AppendFunc, this, aFormat, ap);
if (r == (uint32_t)-1) {
NS_RUNTIMEABORT("Allocation or other failure in PR_vsxprintf");
}
va_end(ap);
}
void
nsTSubstring_CharT::AppendPrintf(const char* aFormat, va_list aAp)
{
uint32_t r = PR_vsxprintf(AppendFunc, this, aFormat, aAp);
if (r == (uint32_t)-1) {
NS_RUNTIMEABORT("Allocation or other failure in PR_vsxprintf");
}
}
/* hack to make sure we define FormatWithoutTrailingZeros only once */
#ifdef CharT_is_PRUnichar
// Returns the length of the formatted aDouble in aBuf.
static int
FormatWithoutTrailingZeros(char (&aBuf)[40], double aDouble,
int aPrecision)
{
static const DoubleToStringConverter converter(DoubleToStringConverter::UNIQUE_ZERO |
DoubleToStringConverter::EMIT_POSITIVE_EXPONENT_SIGN,
"Infinity",
"NaN",
'e',
-6, 21,
6, 1);
double_conversion::StringBuilder builder(aBuf, sizeof(aBuf));
bool exponential_notation = false;
converter.ToPrecision(aDouble, aPrecision, &exponential_notation, &builder);
int length = builder.position();
char* formattedDouble = builder.Finalize();
// If we have a shorter string than aPrecision, it means we have a special
// value (NaN or Infinity). All other numbers will be formatted with at
// least aPrecision digits.
if (length <= aPrecision) {
return length;
}
char* end = formattedDouble + length;
char* decimalPoint = strchr(aBuf, '.');
// No trailing zeros to remove.
if (!decimalPoint) {
return length;
}
if (MOZ_UNLIKELY(exponential_notation)) {
// We need to check for cases like 1.00000e-10 (yes, this is
// disgusting).
char* exponent = end - 1;
for (; ; --exponent) {
if (*exponent == 'e') {
break;
}
}
char* zerosBeforeExponent = exponent - 1;
for (; zerosBeforeExponent != decimalPoint; --zerosBeforeExponent) {
if (*zerosBeforeExponent != '0') {
break;
}
}
if (zerosBeforeExponent == decimalPoint) {
--zerosBeforeExponent;
}
// Slide the exponent to the left over the trailing zeros. Don't
// worry about copying the trailing NUL character.
size_t exponentSize = end - exponent;
memmove(zerosBeforeExponent + 1, exponent, exponentSize);
length -= exponent - (zerosBeforeExponent + 1);
} else {
char* trailingZeros = end - 1;
for (; trailingZeros != decimalPoint; --trailingZeros) {
if (*trailingZeros != '0') {
break;
}
}
if (trailingZeros == decimalPoint) {
--trailingZeros;
}
length -= end - (trailingZeros + 1);
}
return length;
}
#endif /* CharT_is_PRUnichar */
void
nsTSubstring_CharT::AppendFloat(float aFloat)
{
char buf[40];
int length = FormatWithoutTrailingZeros(buf, aFloat, 6);
AppendASCII(buf, length);
}
void
nsTSubstring_CharT::AppendFloat(double aFloat)
{
char buf[40];
int length = FormatWithoutTrailingZeros(buf, aFloat, 15);
AppendASCII(buf, length);
}
size_t
nsTSubstring_CharT::SizeOfExcludingThisMustBeUnshared(
mozilla::MallocSizeOf aMallocSizeOf) const
{
if (mFlags & F_SHARED) {
return nsStringBuffer::FromData(mData)->
SizeOfIncludingThisMustBeUnshared(aMallocSizeOf);
}
if (mFlags & F_OWNED) {
return aMallocSizeOf(mData);
}
// If we reach here, exactly one of the following must be true:
// - F_VOIDED is set, and mData points to sEmptyBuffer;
// - F_FIXED is set, and mData points to a buffer within a string
// object (e.g. nsAutoString);
// - None of F_SHARED, F_OWNED, F_FIXED is set, and mData points to a buffer
// owned by something else.
//
// In all three cases, we don't measure it.
return 0;
}
size_t
nsTSubstring_CharT::SizeOfExcludingThisIfUnshared(
mozilla::MallocSizeOf aMallocSizeOf) const
{
// This is identical to SizeOfExcludingThisMustBeUnshared except for the
// F_SHARED case.
if (mFlags & F_SHARED) {
return nsStringBuffer::FromData(mData)->
SizeOfIncludingThisIfUnshared(aMallocSizeOf);
}
if (mFlags & F_OWNED) {
return aMallocSizeOf(mData);
}
return 0;
}
size_t
nsTSubstring_CharT::SizeOfExcludingThisEvenIfShared(
mozilla::MallocSizeOf aMallocSizeOf) const
{
// This is identical to SizeOfExcludingThisMustBeUnshared except for the
// F_SHARED case.
if (mFlags & F_SHARED) {
return nsStringBuffer::FromData(mData)->
SizeOfIncludingThisEvenIfShared(aMallocSizeOf);
}
if (mFlags & F_OWNED) {
return aMallocSizeOf(mData);
}
return 0;
}
size_t
nsTSubstring_CharT::SizeOfIncludingThisMustBeUnshared(
mozilla::MallocSizeOf aMallocSizeOf) const
{
return aMallocSizeOf(this) +
SizeOfExcludingThisMustBeUnshared(aMallocSizeOf);
}
size_t
nsTSubstring_CharT::SizeOfIncludingThisIfUnshared(
mozilla::MallocSizeOf aMallocSizeOf) const
{
return aMallocSizeOf(this) + SizeOfExcludingThisIfUnshared(aMallocSizeOf);
}
size_t
nsTSubstring_CharT::SizeOfIncludingThisEvenIfShared(
mozilla::MallocSizeOf aMallocSizeOf) const
{
return aMallocSizeOf(this) + SizeOfExcludingThisEvenIfShared(aMallocSizeOf);
}